Company Filing History:
Years Active: 2024
Title: Innovations by Landon Potts: A Focus on Sensor Calibration
Introduction
Landon Potts, an innovative inventor based in Grand Rapids, MI, has made significant contributions to the field of vehicle sensor technology. With a unique patent addressing the calibration of vehicle sensors, Potts embodies the entrepreneurial spirit of innovation in today's automotive industry.
Latest Patents
Landon Potts holds a patent for a "Target alignment system and method for sensor calibration." This inventive system enhances the precision of aligning targets to vehicles during the calibration of vehicle sensors. The design incorporates a target adjustment stand with a base and a moveably mounted target support, equipped with actuators for selective movement. This advanced setup includes distance sensors and targets that accurately measure distances between the aligned targets and sensors, facilitating clear adjustments to vehicle sensor positions.
Career Highlights
Currently affiliated with BPG Sales and Technology Investments, LLC, Potts has focused his career on the intersection of technology and automotive advancements. His innovative approach not only reflects his expertise but also contributes to the growing demand for precise vehicle sensor calibration methods. His patent is a testament to his commitment to enhancing vehicle safety and performance.
Collaborations
Landon Potts has worked alongside notable professionals, including Ryan M. Jefferies and Robert F. Cotter, who also contribute to technology and sales in related fields. Their collaborations pave the way for further innovations and enhancements in automotive technologies and sensor systems.
Conclusion
With a dedication to innovation and a strong background in vehicle technology, Landon Potts continues to impact the automotive sector through his pioneering work in sensor calibration. His patent and collaborative efforts signify a promising future in vehicle safety, demonstrating how inventive minds contribute to technological progress.